A retaining system in which straps are provided with hooks that remain engaged with retaining loops even when tension on the straps is released and in which the tightening mechanism includes rods which are located partially below a rib surface on which the straps are placed such that the ends of the rods are near the plane of the strap ends, thereby greatly reducing the bending moment applied to the strap ends and threaded rods. The hook preferably includes a cavity opposite the hook end that will engage the retaining loop when no tension is on the line. In some embodiments, the hook includes a spring-loaded retaining clip to further ensure that the hook does not become disengaged from the retaining loop. The tightening mechanism includes two rods, each of which is positioned to one side of a rib on which the straps rest.
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1. A method for securing an underground storage tank, the method comprising the step of:
grasping a first end of a first strap, the strap having a second end with a first hook attached thereto, the first hook having a hook body having a first hooked end for engaging a retaining loop when tension is on the strap, the hook body having a second hooked end opposite the first hooked end for engaging the retaining loop when there is no tension on the strap;
swinging the second end of the strap such that the first hooked end engages a first retaining loop on a deadman;
releasing tension on the first strap such that the second hooked end engages the first retaining loop;
repeating the grasping and swinging steps with a second strap such that a second hook on the second strap engages a second deadman retaining loop;
connecting the first end of the first strap to an end of the second strap opposite the second hook; and
applying tension to the first and second straps to secure the underground storage tank1,
where the first hook further comprises an arm, the arm being pivotally attached to the hook body at a point opposite the first hooked end, the arm being sized and positioned such that the arm is prevented from pivoting in a manner that would result in a distal end of the arm passing the first end.
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This application is a continuation of U.S. patent application Ser. No. 10/135,367, filed May 1, 2002, now U.S. Pat. No. 7,028,967.
1. Field of the Invention
The invention relates to storage tanks generally, and more particularly to a retainer system for securing a tank to an anchor such as a deadman or a slab.
2. Discussion of the Background
Underground storage tanks are commonly used for the storage of liquids, including gasoline, other petroleum products, and wastewater. These tanks are generally cylindrical in shape, with either curved (e.g. hemispherical) or flat ends. Underground storage tanks may be made of many materials, including steel and fiber reinforced plastic (referred to herein as FRP and fiberglass). Such tanks may be single or multi-walled.
USTs are installed in a wide variety of locations and under a wide variety of conditions. In some locations, the water table is high enough such that some or all of the UST is below the water table. In these situations, a buoyant upward force will act on the tank. If the buoyant force exceeds the downward forces acting on the tank, the tank will ‘float’ up out of the ground (referred to herein as flotation). This situation is obviously undesirable.
One method commonly used to ensure that flotation does not occur is through the use of anchors such as slabs or deadmen. Slabs and deadmen are typically constructed of reinforced concrete. A slab is typically several inches thick and wider and longer than the corresponding tank. A deadman is typically 12 to 36 inches wide, 8 to 12 inches high, and usually has a length equal to or greater than the corresponding tank. Deadmen are typically installed on both sides of a tank. A detailed discussion of slabs and deadmen, and their use in anchoring underground storage tanks can be found in U.S. Pat. No. 6,467,344, entitled “Underground Storage Tank Buoyancy and Buoyancy Safety Factor Calculation Method and Apparatus,” which is commonly owned by the assignee of the present application and which is hereby incorporated by reference herein.
Tanks are commonly attached to anchors such as slabs and deadmen using straps. The straps are commonly used in pairs, with each strap connected on one end to a hook that is engaged with a loop, or lug, on the anchor. In one embodiment, the other ends of the straps are connected to each other.
In the past, tightening mechanisms, such as turnbuckles, were typically located at both ends of the straps near the anchor lugs. This tightening mechanism could not be operated if located at a position where it was in contact with the tank. This arrangement requires installation personnel to enter the excavation pit in which the tanks were located in order to install and tighten the straps. This practice was potentially unsafe because it is possible for excavation sidewalls to collapse unless very expensive shoring was used. Additionally, if there was water in the hole, tightening was difficult.
The aforementioned problems with traditional strap systems led Xerxes Corporation (“Xerxes”) to develop the “Man Out of the Hole” system approximately 15 years ago. In this system, a tightening mechanism was developed that could be located on top of the tank so that it could be operated by an installer standing on top of the tank, thereby doing away with the need for installation personnel to enter the excavation pit during installation. This system proved effective and has since been adopted by a large portion of the industry.
While the original Man Out of the Hole system has been a dramatic improvement and has generally proven effective, it is not optimal. First, the system requires installation personnel to maneuver the hook end of the strap onto the retaining loop on the anchoring system, and to maintain tension on the strap once hooked to avoid having the hook disengage from the anchor retaining loop. This operation requires patience, and time, especially on the part of inexperienced installation personnel. Second, the Man Out of the Hole system uses a threaded rod positioned above the tank so that the middle of the rod clears the tank. The rod is supported by a pair of brackets, each of which is attached to a strap. A bending force may be created by this elevated rod which means that the brackets need to be strengthened to support this force.
What is needed is an improved system that in which the strap hooks are more easily engaged with the retaining loops and a less expensive tightening mechanism that places less bending force on the brackets, is simple, and cost effective.
The present invention meets the aforementioned need to a great extent by providing a retaining system in which straps are provided with hooks that remain engaged with retaining loops even when tension on the straps is released and in which the tightening mechanism includes threaded rods which are located partially below the rib surface on which the straps are placed such that the end of the threaded rods or is in or near the same plane as the strap ends, thereby reducing the bending moment applied to the brackets. The hook preferably includes a cavity opposite the hook end that will engage the retaining loop when no tension is on the line. In some preferred embodiments, the hook further includes a spring-loaded retaining clip to further ensure that the hook does not become disengaged from the retaining loop. The tightening mechanism includes two rods, each of which is positioned to one side of a rib on which the straps rest.
A more complete appreciation of the invention and many of the attendant features and advantages thereof will be readily obtained as the same become better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:
The present invention will be discussed with reference to preferred embodiments of tank/anchor retainer systems. Specific details, such as specific materials and dimensions, are set forth in order to provide a thorough understanding of the present invention. The preferred embodiments discussed herein should not be understood to limit the invention.
Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views, a side view of a tank 100 including a prior art Man-Out-Of-The-Hole retainer system 110 is shown in
Referring now to
In practice, tank installers stand on the tank 100 and maneuver the straps 112 until the hooks 114 engage the retaining loops on the deadmen 108. Once this is accomplished, the installers must then line up the brackets 144 so that threaded rod 150 can be used to apply tension to the straps 112. It is during this operation that tension may be inadvertently released from the straps 112, thereby allowing hook 114 to be disengaged from retaining loop 109. When this occurs, the process must be restarted, which can be frustrating and is wasteful of time, particularly for inexperienced installation personnel.
In contrast to the prior art, the current invention provides a retaining system including a hook 300 as shown in
A cross-sectional view of the hook 300 taken along the line V-V of
A cross sectional view (similar to that of
It should be noted that the height of the deadman loop 109 above the top surface 108a of the deadman 108 may vary. However, even if the bottom surface 360 of the hook 600 is not in contact with the top surface 108a of the deadman 108, the curved inner surface 350 of the hook 600 will help to maintain the hook 600 in an upright position.
A tensioning mechanism according to an embodiment of the present invention will now be discussed with reference to
Each of the passages 744 is flared in the vertical direction as indicated by phantom lines 1101 in
It should be noted that it is possible to use various elements of the invention with prior art elements. For example, it is possible to use the hook 600 of
Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein.
Burwell, John, Berg, Sr., Robin L., Morrissette, Douglas, Grams, David
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